Study: Long-term eelgrass loss due to joint effects of shade, heat

A new study led by researchers at the Virginia Institute of Marine Science links a long-term decline in Chesapeake Bay's eelgrass beds to both deteriorating water quality and rising summertime temperatures. It also shows that loss of the habitat and other benefits that eelgrass provides comes at a staggering ecological and economic cost.

Lead scientist Jonathan Lefcheck, a VIMS post-doctoral researcher, says "Not only have we lost a huge ecological resource, there have been real economic and recreational consequences for the Bay area's nearly 20 million residents. Blue crab fisheries, for example, have probably lost a year or more of catch based on the amount of eelgrass we've already lost. For silver perch, it's 10-20 years. In all, we estimate the potential economic cost to citizens at $1-2 billion."

The study — based on a comparison of VIMS' 31-year record of seagrass abundance and the Chesapeake Bay Program's long-term record of Bay water quality — appeared in the February 3, 2017 issue of Global Change Biology. Co-authors include Professor Robert "JJ" Orth and scientist David Wilcox of VIMS, Dr. Rebecca Murphy of the University of Maryland Center for Environmental Science, and Scott Marion of the Oregon Department of Fish & Wildlife.

The team's findings confirm a long-standing hypothesis that declines in Bay eelgrass stem from decreased water clarity, which in turn stems from increases in human activities that lead to nutrient pollution and sediment runoff.

Orth, who initiated VIMS' annual Seagrass Monitoring and Assessment program in 1984, says, "It's a classic case of 'habitat squeeze.' Declining water clarity has cut eelgrass cover in half within deeper beds during the last two decades, so that the mean depth of eelgrass beds is now almost 5 inches shallower."

That might not sound like much, but given Chesapeake Bay's gently sloping bottom, a 5-inch change means the Bay's fringing eelgrass beds have contracted shoreward by more than 500 feet since 1984. In fact, says Orth, it is now rare to find eelgrass growing in water deeper than about 3 feet in Chesapeake Bay.

At the same time, the analysis reveals that more frequent heat waves are impacting eelgrass populations even in these shallow-water areas. The most extreme temperature-related losses were observed in 2006, when eelgrass declined 58% following the sweltering summer of 2005, and in 2011, when the VIMS team measured a 41% decline following the steamy summer of 2010.

One bright spot is that eelgrass is currently able to recover rapidly after these sharp declines. In the year following the 2005-6 dieback, eelgrass acreage increased by 55%, and by 2009 had reached total cover exceeding that observed just before the dieback took place. A similar rebound took place after 2010-11, with eelgrass returning to pre-dieback acreage in less than two years.

The scientists warn, however, that future recoveries are much less certain given current trends towards murkier, warmer water. They also stress that their analysis focuses on eelgrass. Other underwater baygrasses, widgeongrass in particular, have experienced recent increases in Bay coverage. But widgeongrass is known for boom-bust cycles that could quickly reverse these gains, and is unlikely to replace the ecosystem services provided by eelgrass due to its different growth habit and restriction to fresher waters.

A hot and cloudy future

"Our observations suggest eelgrass is responding to two main factors," says Orth. "Declining water clarity has gradually reduced eelgrass cover during the past two decades, primarily in deeper beds where lack of light already limits growth. In shallow beds, it's more that heat waves are stressing the plants, leading to the sharp drops we've seen in recent summers."

But it's the combined effect of these two factors that gives the researchers their greatest concern. Says Lefcheck, "Declining clarity plus these hot summers is a real double-whammy for eelgrass." That's because eelgrasses–which already need more light to survive than related land plants — require even more light as water temperatures rise.

"In effect," says Orth, "any increase in water temperature subjects shallowly growing eelgrass plants to light conditions similar to those that have already largely eliminated their deeper-water cohorts."

The team's analysis shows the mean summertime water temperature in the lower Chesapeake Bay has already increased by more than 2 degrees Fahrenheit since 1984–from 76.8° to 79.5°F — and that the frequency of extreme warm spells with water temperatures exceeding 82° has doubled in the last decade.

As global warming continues to raise the area's water temperatures — a conservative estimate is a further 3.5° F increase by 2040 — the team predicts a further 38% decline in eelgrass cover. And if water clarity follows its current downward trajectory during the next 30 years, eelgrass would decline an additional 84%. When both declining clarity and warming are considered, say the researchers, the predicted increases in temperature and turbidity would result in a loss of 95% of Bay eelgrass–a near total eradication. To combat this downward trend, the researchers call on resource managers and policymakers to build recognition of global warming into their management strategies.

"We propose that managers must increase their water-quality targets at the local and regional levels to offset losses caused by global factors outside their immediate control," says Orth.

"Our analysis suggests that eelgrass could still persist in the face of moderate increases in temperature, if the water remains clear enough" adds Lefcheck. "But that will only happen if managers adopt an integrated perspective, and continue with their efforts to curb inputs into the Bay."

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Funding for the study comes from the U.S. Environmental Protection Agency's Chesapeake Bay Program, NOAA's Virginia Coastal Program, the Virginia Department of Environmental Quality, and the Maryland Department of Natural Resources.